Lightweight and privacy-preserving hierarchical federated learning mechanism for artificial intelligence-generated image content

IF 2.9 4区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Journal of Real-Time Image Processing Pub Date : 2024-08-08 DOI:10.1007/s11554-024-01524-7
Bingquan Wang, Fangling Yang
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Abstract

With the rapid development of artificial intelligence and Big Data, the application of artificial intelligence-generated image content (AIGIC) is becoming increasingly widespread in various fields. However, the image data utilized by AIGIC is diverse and often contains sensitive personal information, characterized by heterogeneity and privacy concerns. This leads to prolonged implementation times for image data privacy protection, and a high risk of unauthorized third-party access, resulting in serious privacy breaches and security risks. To address this issue, this paper combines Hierarchical Federated Learning (HFL) with Homomorphic Encryption to first address the encryption and transmission challenges in the image processing pipeline of AIGIC. Building upon this foundation, a novel HFL group collaborative training strategy is designed to further streamline the privacy protection process of AIGIC image data, effectively masking the heterogeneity of raw image data and achieving balanced allocation of computational resources. Additionally, a model compression algorithm based on pruning is introduced to alleviate the data transmission pressure in the image encryption process. Optimization of the homomorphic encryption modulo operations significantly reduces the computational burden, enabling real-time enhancement of image data privacy protection from multiple dimensions including computational and transmission resources. To verify the effectiveness of the proposed mechanism, extensive simulation verification of the lightweight privacy protection process for AIGIC image data was performed, and a comparative analysis of the time complexity of the mechanism was conducted. Experimental results indicate substantial advantages of the proposed algorithm over traditional real-time privacy protection algorithms in AIGIC.

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针对人工智能生成的图像内容的轻量级和保护隐私的分层联合学习机制
随着人工智能和大数据的快速发展,人工智能生成的图像内容(AIGIC)在各个领域的应用日益广泛。然而,人工智能生成的图像数据种类繁多,往往包含敏感的个人信息,具有异质性和隐私问题的特点。这导致图像数据隐私保护的实施时间延长,而且第三方未经授权访问的风险很高,从而造成严重的隐私泄露和安全风险。为解决这一问题,本文将分层联合学习(HFL)与同态加密相结合,首先解决了 AIGIC 图像处理流水线中的加密和传输难题。在此基础上,设计了一种新颖的 HFL 群体协作训练策略,进一步简化了 AIGIC 图像数据的隐私保护流程,有效掩盖了原始图像数据的异质性,实现了计算资源的均衡分配。此外,还引入了基于剪枝的模型压缩算法,以减轻图像加密过程中的数据传输压力。同态加密模操作的优化大大减轻了计算负担,从计算资源和传输资源等多个维度实时加强了图像数据的隐私保护。为验证所提机制的有效性,对 AIGIC 图像数据的轻量级隐私保护过程进行了大量仿真验证,并对该机制的时间复杂度进行了对比分析。实验结果表明,与传统的 AIGIC 实时隐私保护算法相比,所提出的算法具有很大的优势。
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来源期刊
Journal of Real-Time Image Processing
Journal of Real-Time Image Processing COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-ENGINEERING, ELECTRICAL & ELECTRONIC
CiteScore
6.80
自引率
6.70%
发文量
68
审稿时长
6 months
期刊介绍: Due to rapid advancements in integrated circuit technology, the rich theoretical results that have been developed by the image and video processing research community are now being increasingly applied in practical systems to solve real-world image and video processing problems. Such systems involve constraints placed not only on their size, cost, and power consumption, but also on the timeliness of the image data processed. Examples of such systems are mobile phones, digital still/video/cell-phone cameras, portable media players, personal digital assistants, high-definition television, video surveillance systems, industrial visual inspection systems, medical imaging devices, vision-guided autonomous robots, spectral imaging systems, and many other real-time embedded systems. In these real-time systems, strict timing requirements demand that results are available within a certain interval of time as imposed by the application. It is often the case that an image processing algorithm is developed and proven theoretically sound, presumably with a specific application in mind, but its practical applications and the detailed steps, methodology, and trade-off analysis required to achieve its real-time performance are not fully explored, leaving these critical and usually non-trivial issues for those wishing to employ the algorithm in a real-time system. The Journal of Real-Time Image Processing is intended to bridge the gap between the theory and practice of image processing, serving the greater community of researchers, practicing engineers, and industrial professionals who deal with designing, implementing or utilizing image processing systems which must satisfy real-time design constraints.
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